In this paper, we present an algebraic method to study and design spatial parallel manipulators that demonstrate isotropy in the force and moment distributions. We use the force and moment transformation matrices separately, and derive conditions for their isotropy individually as well as in combination. The isotropy conditions are derived in closed-form in terms of the invariants of the quadratic forms associated with these matrices. The formulation is applied to a class of Stewart platform manipulator, and a multi-parameter family of isotropic manipulators is identified analytically. We show that it is impossible to obtain a spatially isotropic configuration within this family. We also compute the isotropic configurations of an existing m...
This research involves synthesis of planar isotropic 3R manipulator using link length ratios. A nove...
This article studies the kinematic design of different types of spherical three-degree-of-freedom pa...
Gravity compensation of spatial parallel manipulators is a relatively recent topic of investigation....
In this paper, we present an algebraic method to study and design spatial parallel manipulators that...
In this paper, we present an algebraic method to study and design spatial parallel manipulators that...
In this paper, we present an algebraic method to study and design spatial parallel manipulators that...
In this paper, we present a new method to study and design isotropic spatial parallel manipulators. ...
In this paper, we study the isotropic design of two types of spatial parallel manipulators: a three-...
The paper discusses the concepts of isotropy and decoupling in n-DoF (degrees of freedom) manipulato...
As well known, the kinetostatic performances (repeatability, stiffness, maximum force or velocity) o...
This thesis presents a unified framework for the analysis of instantaneous kinematics and statics of ...
This thesis is devoted to the kinematic synthesis of parallel manipulators at large, special attenti...
This paper deals with the synthesis of mechanical transmission structures for tendon-driven manipula...
The principle of kinematic design has a wide range of applications e.g. from optical mirror mounts t...
This paper presents a methodology for kinematic synthesis of tendon-driven manipulators with isotrop...
This research involves synthesis of planar isotropic 3R manipulator using link length ratios. A nove...
This article studies the kinematic design of different types of spherical three-degree-of-freedom pa...
Gravity compensation of spatial parallel manipulators is a relatively recent topic of investigation....
In this paper, we present an algebraic method to study and design spatial parallel manipulators that...
In this paper, we present an algebraic method to study and design spatial parallel manipulators that...
In this paper, we present an algebraic method to study and design spatial parallel manipulators that...
In this paper, we present a new method to study and design isotropic spatial parallel manipulators. ...
In this paper, we study the isotropic design of two types of spatial parallel manipulators: a three-...
The paper discusses the concepts of isotropy and decoupling in n-DoF (degrees of freedom) manipulato...
As well known, the kinetostatic performances (repeatability, stiffness, maximum force or velocity) o...
This thesis presents a unified framework for the analysis of instantaneous kinematics and statics of ...
This thesis is devoted to the kinematic synthesis of parallel manipulators at large, special attenti...
This paper deals with the synthesis of mechanical transmission structures for tendon-driven manipula...
The principle of kinematic design has a wide range of applications e.g. from optical mirror mounts t...
This paper presents a methodology for kinematic synthesis of tendon-driven manipulators with isotrop...
This research involves synthesis of planar isotropic 3R manipulator using link length ratios. A nove...
This article studies the kinematic design of different types of spherical three-degree-of-freedom pa...
Gravity compensation of spatial parallel manipulators is a relatively recent topic of investigation....